DE3304742A1 - Method for determining geopathogenic zones - Google Patents

Abstract

In a method for determining and analysing geopathogenic zones, the investigation zone is covered by a non-coherent network of discrete radiation absorbers, thereafter each radiation absorber is excited with the aid of a transmitter, and at the same time the respective wavelength of the resonant frequency is determined by means of a resonator.

Description

The invention relates to a method for determining

geopathogenic zones, such as those in the range of concentrations of earth radiation appear.

It is known from radiesthesia that certain wave concentrations or disturbed earth radiation fields in the long term to damage to health and diseases being able to lead.

Such wave concentrations form, for example, in the form of so-called waves Stimulus stripes over underground water veins and the so-called global grid network that extends like the meridians in the four cardinal directions.

In addition, there is also a diagonal grid that is used in runs at an angle of 45 ° to the north-south direction. The radiation emanating from it is extremely weak and according to information from the specialist literature is only 1 10 8A / m2 their determination and analysis therefore requires correspondingly sensitive recipients, to detect the radiation and to convert the corresponding signals in terms of its intensity. Highly sensitive dowsers are able to do this; however, they do not stand available everywhere, so that a radiation analysis cannot easily be carried out on everyone Location possible or at least associated with considerable costs, since it is common takes many hours to determine a geopathogenic zone as well as re measure their course and intensity.

The invention is therefore based on the object of a non-stationary To create methods of determining and analyzing geopathogenic zones. The solution this task is based on the thought that causal for a geopathogenic zone Capture earth rays with the help of a carrier in order to then analyze them in the laboratory to be able to. in the individual, the invention consists in the fact that the investigation zone occupied by a non-contiguous network of discrete radiation absorbers, the radiation absorber then excited by means of a transmitter and simultaneously by means of a resonator the wavelength of the resonance frequency is determined. This is done in the way that the discrete radiation absorbers while maintaining their preferably uniform Distribution in the investigation zone from the transmitter with earth rays different Wavelength be irradiated. If when driving through the wave range, a Resonance, then the transmitter wavelength corresponds to the absorber radiation or wavelength, which in turn determines the wavelength of the earth's rays at the corresponding point of the The investigation zone.

To fix the discrete radiation absorber in the position which they occupy in the investigation zone is preferred in the investigation zone one with discrete radiation absorbers, for example made of aluminum foil or powder or wire, at a distance of, for example, 10 to 20 cm occupied film a non-conductive material for the earth's rays, preferably made of plastic or laid out on paper. The foil remains for a certain time, for example 15 up to 30 minutes in the examination zone and is then rolled up or folded and irradiated in the laboratory by the transmitter, wherein the resonator is expediently located in the beam path between the transmitter and the film and the irradiated absorber starts one after the other According to the different wave distribution in the The examination zone also has the absorbed Radiation of each Radiation absorbers have a different wavelength and the transmitter. As soon as the wavelength of the transmitter corresponds to the wavelength captured by a discrete absorber, there is a resonance that can be determined with the aid of a resonator. Then needs only the wavelength set on the transmitter can be read.

The resonator preferably consists of a one-sided with a handle provided resilient wire with a receiver basket at the free end. This basket is coming at the resonance frequency for oscillation and then allows a measurement of the oscillation amplitude, for example with the help of light barriers staggered one behind the other. Depending on the Oscillation amplitude passes the receiver cage more or less beam paths, for example photoelectric barriers connected to a computer. The number that passed from the receiver basket Light barriers can be optically resp.

show graphically.

The wavelength of the captured resp. absorbed terrestrial radiation of a discrete absorber then only needs in one True-to-scale sketch of the investigation zone to be entered in order to access this Way a graphical representation of a geopathogenic zone according to the wavelength and the distribution of the earth's rays.

The invention is described below with reference to the accompanying drawing of the explained in more detail. In the drawing show: Fig. 1 the schematic Representation of a geopathogenic zone and FIG. 2 the arrangement of the devices during radiation analysis.

The radiation distribution in the geopathogenic zone is determined by the course of the grid strips schematically marked with plus and minus signs and two water veins 1, 2, which have a Wittmann stripe at an angle to it 3 and a fault 4 cross. The corresponding intersection areas 5, 6, 7, 8 are particularly hazardous to health; they are distinguished by one of the normal Radiation of the stimulus strips 1 to 4 different wavelengths.

The method according to the invention allows this pathogenic radiation to localize and to determine their wavelength. That happens with The help of an earth radiation emitter or transmitter 9, as described in the German patent application P 32 10 955.5 is described. The transmitter 9 has a rotary knob 10 with which Help the wavelength can be adjusted. Extends in the beam path of the transmitter a plastic film 11, which is provided on the transmitter side with discrete radiation absorbers 12 is busy. A resonator is located between the transmitter 9 and the plastic film 11 13 with a one-sided in a handle 14 mounted resilient wire 15, the free end carries a receiver basket 16 protruding in the beam path of the transmitter.

When turning the knob 10, the wavelength of the transmitter changes 9 emitted earth rays; this agrees with the wavelength of one of the discrete Absorber 12 captured Earth rays coincide, is the resonance frequency reaches and begins to vibrate the receiver cage 16 of the resonator. The oscillation amplitude of the receiver basket gives a measure of the intensity of the radiation. the Wavelength of the radiation captured by the discrete absorber in question can then be used directly on the scale of the earth radiation transmitter (not shown) 9 or determine with the help of a rapid curve.

With the method according to the invention, the radiation can be geopathogenic zone determined much more precisely according to wavelength and distribution than with the dowsing method; because the carrier 11 with the discrete earth radiation absorbers 12 can be placed very exactly in that plane on which it is in terms of harmful effects of earth radiation. In addition, laboratory measurements Experience has shown that it can be carried out much more precisely than a measurement in situ.

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Claims (8)

"Method for determining geopathogenic zones". 1. Method of determining and analyzing geopathogenic zones, thereby gekennzeichny that the investigation zone with a non-contiguous network more discrete Radiation absorber occupied, then each radiation absorber excited with the help of a transmitter and at the same time the respective wavelength of the resonance frequency by means of a resonator is determined. 2. The method according to claim 1, characterized in that in the examination zone one with discrete radiation absorbers. Slide off one for the rays non-conductive material is laid out. 3. The method according to claim 1 or 2, characterized in that the Resonator in the beam path between the transmitter and the irradiated absorbers is arranged. 4. The method according to one or more of claims 1 to 3, characterized characterized in that the discrete radiation absorber with changing wavelength be irradiated. 5. The method according to one or more of claims 1 to 4, characterized characterized in that the discrete radiation absorber made of aluminum foil, powder or -wire made. 6. The method according to one or more of claims 1 to 5, characterized marked ,, that the oscillation amplitude of the resonator by means of light barriers is measured. 7. Device for performing the method according to the claims 1 to 6, characterized in that the resonator (13) consists of a one-sided with a handle (14) provided resilient wire (15) with a receiver basket on the free End exists. 8. Device for performing the method according to the claims 1 to 7, characterized by a non-conductive, with discrete radiation absorbers (12) occupied carrier (11).